A hypoxia-responsive element mediates a novel pathway of activation of the inducible nitric oxide synthase promoter.

Melillo, Giovanni; Musso, Tiziana; Sica, Antonio; Taylor, Lynn S.; Cox, George W.; Varesio, Luigi

doi:10.1084/jem.182.6.1683

Cited by 580 publications

(352 citation statements)

References 54 publications

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“…By contrast, under hypoxia or in the presence of iron chelators, the degradation of HIF-1α is prevented [7,11,12]. As a result, this stabilization initiates a multi-step pathway of activation of HIF-1α that includes hypoxia-dependent nuclear translocation and dimerization with ARNT to interact with hypoxia responwww.cell-research.com | Cell Research Qi Fang Li et al 549 npg sive element (HRE) of target genes such as erythropoietin (EPO) [13], vascular endothelial growth factor (VEGF) [14], inducible nitric-oxide synthase [15], heme oxygenase 1 [16], and so on. Taken together, it comes as no surprise that the HIF-dependent hypoxic response pathway plays a prominent role in mediating the consequences of many disease states, including cerebral and myocardial ischemia, pulmonary hypertension, and tumorigenesis [17].…”

Section: Introductionmentioning

confidence: 99%

Hypoxia upregulates hypoxia inducible factor (HIF)-3α expression in lung epithelial cells: characterization and comparison with HIF-1α

et al. 2006

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The role of the hypoxia-inducible factor (HIF) subunits 1α and 2α in response to hypoxia is well established in lung epithelial cells, whereas little is known about HIF-3α with respect to transcriptional and translational regulation by hypoxia. HIF-3α and HIF-1α are two similar but distinct basic helix-loop-helix-PAS proteins, which have been postulated to activate hypoxia responsive genes in response to hypoxia. Here, we used quantitative real time RT-PCR and immunoblotting to determine the activation of HIF-3α vs. HIF-1α by hypoxia. HIF-3α was strongly induced by hypoxia (1% O 2 ) both at the level of protein and mRNA due to an increase in protein stability and transcriptional activation, whereas HIF-1α protein and mRNA levels enhanced transiently and then decreased because of a reduction in its mRNA stability in A549 cells, as measured on mRNA and protein levels. Interestingly, HIF-3α and HIF-1α exhibited strikingly similar responses to a variety of activating or inhibitory pharmacological agents. These results demonstrate that HIF-3α is expressed abundantly in lung epithelial cells, and that the transcriptional induction of HIF-3α plays an important role in the response to hypoxia in vitro. Our findings suggest that HIF-3α, as a member of the HIF system, is complementary rather than redundant to HIF-1α induction in protection against hypoxic damage in alveolar epithelial cells.

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Section: Introductionmentioning

confidence: 99%

Hypoxia upregulates hypoxia inducible factor (HIF)-3α expression in lung epithelial cells: characterization and comparison with HIF-1α

et al. 2006

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“…Additionally, iNOS is a hypoxia‐inducible gene because hypoxia‐responsive element is present in the iNOS promoter (Melillo et al . 1995). Therefore, increased NO production in Phd2 cKO could also be mediated by inflammatory cells expressing iNOS like macrophages, which needs further investigation.…”

Section: Discussionmentioning

confidence: 99%

Activation of the hypoxia‐inducible factor pathway induced by prolyl hydroxylase domain 2 deficiency enhances the effect of running training in mice

et al. 2016

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AimsHypoxic response mediated by hypoxia‐inducible factor (HIF) seems to contribute to the benefit of endurance training. To verify the direct contribution of HIF activation to running training without exposure to atmospheric hypoxia, we used prolyl hydroxylase domain 2 (PHD2) conditional knockout mice (cKO), which exhibit HIF activation independent of oxygen concentration, and we examined their maximal exercise capacity before and after 4 weeks of treadmill exercise training.Methods Phd2 f/f mice (n = 26) and Phd2 cKO mice (n = 24) were randomly divided into two groups, trained and untrained, and were subjected to maximal running test before and after a 4‐week treadmill‐training regimen.ResultsProlyl hydroxylase domain 2 deficiency resulted in HIF‐α protein accumulation. Phd2 cKO mice exhibited marked increases in haematocrit values and haemoglobin concentrations, as well as an increase in the capillary number in the skeletal muscle. The 4‐week training elicited an increase in the capillary‐to‐fibre (C/F) ratio and succinyl dehydrogenase activity of the skeletal muscle. Importantly, trained Phd2 cKO mice showed a significantly greater improvement in running time than trained control mice (P < 0.05). Collectively, these data suggest that the combination of training and the activation of the HIF pathway are important for maximizing the effect of running training.ConclusionWe conclude that the activation of the HIF pathway induced by PHD2 deficiency enhances the effect of running training.

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“…The Mf vector system described in this paper was designed to generate activated macrophages (Mf), because the therapeutic gene (IFNg) is an Mf activator and is expressed in an inducible manner in response to molecules, PA or DFX, which have costimulatory activities on Mf. The inducibility by hypoxia of HREcontaining synthetic promoters was previously characterized in vivo 23,24 in vitro, 9,15,25,11,26 and also in Mf. 12,11 New perspectives in the use of hypoxia-sensitive Mf vectors stem from the observation that stimuli other than hypoxia can activate HRE.…”

Section: Activation Of Macrophage Vectors S Pastorino Et Almentioning

confidence: 99%

“…A common denominator of many pathological lesions is hypoxia, a condition of low oxygen tension that occurs, for example, within the tumor mass or in inflammatory areas. Mf respond to hypoxia 9,10 and can be engineered to express therapeutic genes under these conditions 11,12 using synthetic promoters containing the hypoxia-responsive element (HRE), which is specifically transactivated under hypoxic conditions (reviewed in Lewis et al 10 and Semenza 13 ).…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, it is important to develop strategies allowing the expression of the hypoxia-driven therapeutic gene under normoxic conditions utilizing stimuli or drugs, other than hypoxia, which can be delivered in a controlled manner. One group of these compounds is represented by metal chelators including desferrioxamine (DFX), 15,16 a drug used to treat iron overload, and picolinic acid (PA), 9 a metabolite of tryptophan. The Mf-activating properties of PA have been studied extensively.…”

Section: Introductionmentioning

confidence: 99%

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Picolinic acid- or desferrioxamine-inducible autocrine activation of macrophages engineered to produce IFNγ: an approach for gene therapy

et al. 2004

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Macrophage (Mf)-based vectors are highly mobile cellular shuttles designed to deliver therapeutic genes within the tissues. We engineered a mouse Mf cell line to express the murine interferon-g (IFNg) under the control of an inducible promoter containing the hypoxia-responsive element, which can be triggered by hypoxia and other stimuli. We show that this Mf vector can be induced to produce IFNg under normoxic conditions by stimulation with picolinic acid (PA), a catabolite of tryptophan, or desferrioxamine (DFX), an ironchelating drug. The Mf vector responds to IFNg with the induction of IRF-1 and of other IFNg-inducible genes, the expression of Ia antigens and induction of phagocytic activity.Inducible nitric oxygen synthase gene expression, nitric oxide production, as well as TNFa secretion were enhanced by PA or DFX as the sole stimuli. None of the above responses could be triggered individually by PA or DFX in control, normal Mf, indicating that the Mf vector overcame the need for costimulatory molecules derived from the immune system for its full activation. Furthermore, we demonstrate that extracellular iron can downregulate such response, thereby identifying an additional tool for the fine tuning of the Mf vector response to stimulation.

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A hypoxia-responsive element mediates a novel pathway of activation of the inducible nitric oxide synthase promoter.

Cited by 580 publications

References 54 publications

Hypoxia upregulates hypoxia inducible factor (HIF)-3α expression in lung epithelial cells: characterization and comparison with HIF-1α

Hypoxia upregulates hypoxia inducible factor (HIF)-3α expression in lung epithelial cells: characterization and comparison with HIF-1α

Activation of the hypoxia‐inducible factor pathway induced by prolyl hydroxylase domain 2 deficiency enhances the effect of running training in mice

Picolinic acid- or desferrioxamine-inducible autocrine activation of macrophages engineered to produce IFNγ: an approach for gene therapy

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